References
- Balevičius, R., and Miškinis, P, 2020. The air viscosity coefficient and other related values. Mokslas–Lietuvos Ateitis/Science–Future of Lithuania, 12, 1–4.
- Beainy, F., et al., 2010. Asphalt compaction quality control using artificial neural networked. 49th IEEE Conference on Decision and Control (CDC) IEEE, 4643–4648.
- Berge, A., and Johansson, P., 2012. Literature review of high performance thermal insulation. Report in Building Physics.
- Björling, M., et al., 2014. Friction reduction in elastohydrodynamic contacts by thin-layer thermal insulation. Tribology Letters, 53 (2), 477–486.
- Bocci, E., et al., 2020. Ageing and cooling of hot-mix-asphalt during hauling and paving – a laboratory and site study. Sustainability, 12 (20), 8612.
- China, S.P.O, 2008. General principle for thermal insulation technique of equipments and pipes. Technical Supervision & Research Center for China Building Materials Industry, 12.
- Cong, P., Wang, J., Zhou Z., 2020. Effects of thermal degradation on polymer modified asphalt binders during storage and transportation. Construction and Building Materials, 248, 118694.
- Cong, P., et al., 2013. Investigation on properties of polymer modified asphalt containing various antiaging agents. Polymer Degradation and Stability, 98 (12), 2627–2634.
- Delgadillo, R., and Bahia, H.U, 2008. Effects of temperature and pressure on hot mixed asphalt compaction: field and laboratory study. Journal of Materials in Civil Engineering, 20 (6), 440–448.
- Dilmac, S., and Kesen, N, 2003. A comparision of new turkish thermal insulation standard (ts 825), ISO 9164, en 832 and German regulation. Energy and Buildings, 35 (2), 161–174.
- Domínguez-Muñoz, F., et al., 2010. Uncertainty in the thermal conductivity of insulation materials. Energy and Buildings, 42 (11), 2159–2168.
- Du, C.L., and Yang, K., 2012. Design of mobile acoustic source positioning systemed. Applied Mechanics and Materials, 195, 229–233.
- Du, Z., et al., 2020. Low temperature performance characteristics of polyethylene modified asphalts – a review. Construction and Building Materials, 264, 120704.
- Eltwati, A., et al., 2021. A laboratory study of the effect of fiberglass additive on the behavioural properties of RAP asphalt mixtures. Journal of Physics: Conference Series, 1973 (1), 012241.
- Evans, O., 2005. Aerogel insulation for the thermal protection of Venus spacecraft. NASA SBIR 2005 Solicitation.
- Fang, C., et al., 2020. Investigating fatigue life prediction of rubber asphalt mixture based on damage evolution using residual strain analysis approach. Construction and Building Materials, 257, 119476.
- Fesmire, J.E, 2006. Aerogel insulation systems for space launch applications. Cryogenics, 46 (2-3), 111–117.
- Furmański, P., et al., 2006. Izolacje cieplne: mechanizmy wymiany ciepła, właściwości cieplne i ich pomiary. XXX: Instytut Techniki Cieplnej-Politchnika Warszawska.
- Gibson, G., Ramsson, T., et al., 2012. Building shell and thermal insulation-technology brief r01. The Energy Technology Systems Analysis Program. https://iea-etsap.org.
- Hall, M.R., et al., 2012. Influence of the thermophysical properties of pavement materials on the evolution of temperature depth profiles in different climatic regions. Journal of Materials in Civil Engineering, 24 (1), 32–47.
- Halliday, D, et al., 2014. Fundamentals of physics (10th (revised) edition). New York: Wiley.
- He, Y.-L., and Xie, T, 2015. Advances of thermal conductivity models of nanoscale silica aerogel insulation material. Applied Thermal Engineering, 81, 28–50.
- Hengeveld, D.W., et al., 2010. Review of modern spacecraft thermal control technologies. HVAC&R Research, 16 (2), 189–220.
- ISO, E.J.B.S.I., and London, UK, 2010. 11925-2: 2010. Reaction to fire tests – ignitability of products subjected to direct impingement of flame – Part 2: Single-flame source test.
- Jelle, B.P, 2011. Traditional, state-of-the-art and future thermal building insulation materials and solutions – properties, requirements and possibilities. Energy and Buildings, 43 (10), 2549–2563.
- Jelle, B.P, 2016. Nano-based thermal insulation for energy-efficient buildings. In: F. Pacheco-Torgal, E. Rasmussen, C.-G. Granqvist, V. Ivanov, A. Kaklauskas, and S. Makonin, eds. Start-up creation: The smart eco-efficient built environment. Amsterdam: Elsevier, 129–181. doi:10.1016/B978-0-08-100546-0.00008-X.
- Jones, S.M, 2006. Aerogel: space exploration applications. Journal of Sol-Gel Science and Technology, 40 (2), 351–357.
- Joubert, J.W, 2017. Multi-agent model of route choice when vehicles are sensitive to road grade. Procedia Computer Science, 109, 869–874.
- Lavin, P, 2003. Asphalt pavements: a practical guide to design, production and maintenance for engineers and architects. London: Spon.
- Lesueur, D, 2009. The colloidal structure of bitumen: consequences on the rheology and on the mechanisms of bitumen modification. Advances in Colloid and Interface Science, 145 (1-2), 42–82. Available from: https://www.ncbi.nlm.nih.gov/pubmed/19012871.
- Li, H., et al., 2019. Physical, Rheological and Stability Properties of Desulfurized Rubber Asphalt and Crumb Rubber Asphalt, 44 (5), 5043–5056.
- Li, P., 2016. Application of infrared imaging temperature measurement technology in asphalt mixture transportation. Master. Xi'an: Chang’an University.
- Li, X., et al., 2018. Gradation segregation analysis of warm mix asphalt mixture. Journal of Materials in Civil Engineering, 30, 4.
- Li, X., et al., 2017. Temperature segregation of warm mix asphalt pavement: laboratory and field evaluations. Construction and Building Materials, 136, 436–445.
- Lin, T.-P., Ho Y.-F., Huang Y.-S., 2007. Seasonal effect of pavement on outdoor thermal environments in subtropical Taiwan. Building and Environment, 42 (12), 4124–4131.
- Liu, G., and Glover, C.J, 2015. A study on the oxidation kinetics of warm mix asphalt. Chemical Engineering Journal, 280, 115–120.
- Liu, Z., et al., 2020. Research on high temperature protection technology of infrared temperature measuring equipment in space environmented. IOP Conference Series: Earth and Environmental Science. IOP Publishing, 012167.
- Lopes, P., et al., 2019. Designing a novel and greener truck asphalt container. Procedia Manufacturing, 38, 324–332.
- Lu, Z., et al., 2008. Influence of object-system distance on accuracy of temperature measurement with IR system. Infrared Technol, 30 (5), 271–274.
- Lucchi, E., et al., 2017. Thermal performance evaluation and comfort assessment of advanced aerogel as blown-in insulation for historic buildings. Building and Environment, 122, 258–268.
- Ma, B., et al., 2020. Thermal-insulation effect and evaluation indices of asphalt mixture mixed with phase-change materials. Materials, 13 (17), 3738.
- Mohammad, L.N., Hassan, M.M., Kim, M., et al., 2017. Effects of paver stoppage on temperature segregation in asphalt pavements. Journal of Materials in Civil Engineering, 29 (2), 04016200.
- Muhieldeen, M.W., et al., 2021. Effect of rockwool insulation on room temperature distribution. Journal of Advanced Research in Experimental Fluid Mechanics Heat Transfer, 3 (1), 9–15.
- Pereira, R., et al., 2018. Warm mix asphalt: chemical additives’ effects on bitumen properties and limestone aggregates mixture compactibility. International Journal of Pavement Research and Technology, 11 (3), 285–299.
- Pfundstein, M., et al., 2012. Insulating materials: principles, materials, applications. Munich: Walter de Gruyter.
- Pszczoła, M., Judycki, J., Ryś, D., et al., 2016. Evaluation of pavement temperatures in Poland during winter conditions. Transportation Research Procedia, 14, 738–747.
- Qian, G., et al., 2020a. Research on the affecting factors and characteristic of asphalt mixture temperature field during compaction. Construction and Building Materials, 257, 119509.
- Qian, G., et al., 2020b. Compaction process tracking for asphalt mixture using discrete element method. Construction and Building Materials, 235, 117478.
- Ramadhan, R.H., and Wahhab, H.I.a.-A., 1997. Temperature variation of flexible and rigid pavements in eastern Saudi Arabia. Building and Environment, 32 (4), 367–373.
- Reynoso, L.E., et al., 2021. Characterization of an alternative thermal insulation material using recycled expanded polystyrene. Construction and Building Materials, 301, 124058.
- Schiavoni, S., et al., 2016. Insulation materials for the building sector: a review and comparative analysis. Renewable and Sustainable Energy Reviews, 62, 988–1011.
- Sun, Z., et al., 2019. Low-temperature performance of asphalt mixture based on statistical analysis of winter temperature extremes: a case study of Harbin China. Construction and Building Materials, 208, 258–268.
- Tamura, Y., 2009. Wind-induced damage to buildings and disaster risk reduction. Proceedings of the APCWE-VII, Taipei, Taiwan.
- Torres-Machi, C., et al., 2018. Impact of environmental assessment and budgetary restrictions in pavement maintenance decisions: application to an urban network. Transportation Research Part D: Transport and Environment, 59, 192–204.
- Usamentiaga, R., et al., 2014. Infrared thermography for temperature measurement and non-destructive testing. Sensors, 14 (7), 12305–12348.
- Villasmil, W., et al., 2019a. A review and evaluation of thermal insulation materials and methods for thermal energy storage systems. Renewable and Sustainable Energy Reviews, 103, 71–84.
- Villasmil, W., Fischer, L.J., Worlitschek, J., 2019b. A review and evaluation of thermal insulation materials and methods for thermal energy storage systems. Renewable and Sustainable Energy Reviews, 103, 71–84.
- Wang, L., 2013. Reaearch on thermal diffusion process of asphalt pavement and mix improvement at low temperature.
- Tychanicz-Kwiecień, M., Wilk, J., Gil, P., 2019. Review of high-temperature thermal insulation materials. Journal of Thermophysics and Heat Transfer, 33 (1), 271–284.
- Xia, C., et al., 2021. Unified characterizing fatigue performance of rubberized asphalt mixtures subjected to different loading modes. Journal of Cleaner Production, 279, 123740.
- Xu, Q., and Solaimanian, M, 2010. Modeling temperature distribution and thermal property of asphalt concrete for laboratory testing applications. Construction and Building Materials, 24 (4), 487–497.
- Yu, H., et al., 2021. Experimental study on thermophysical properties of hma during compaction. International Journal of Pavement Engineering, 22 (8), 1064–1075.
- Zhang, Y., et al., 2021. Environmental impact assessment of pavement road bases with reuse and recycling strategies: a comparative study on geopolymer stabilized macadam and conventional alternatives. Transportation Research Part D: Transport and Environment, 93, 102749.
- Zhao, X., Shen, A., Ma, B., 2020. Temperature response of asphalt pavement to low temperatures and large temperature differences. International Journal of Pavement Engineering, 21 (1), 49–62.
- Zhou, Z., Wang, J., Cong, P., 2020. Investigation of thermal degradation of asphalt binders during storage and transportation. Construction and Building Materials, 231, 117196.
- Zhu, S., et al., 2018. Development of an automated remote asphalt paving quality control system. Transportation Research Record: Journal of the Transportation Research Board, 2672 (26), 28–39.